DE937021C - Four species calculating machine - Google Patents

Description

Four-species calculating machine Small arithmetic units are already known which, in the form of a table with adjusting slides, add and subtract, and furthermore Multi-blade machines in desk and can form, which do all four basic types of calculation deal with.

The invention relates to a balancing small calculating machine in pocket format with ten keypad for the four basic calculations.

To accommodate such a machine in the smallest possible space to be able to, according to the invention, the key levers of the ten-key field are transverse to the 73 adjusting members of the setting mechanism, whereby they are arranged at a distance from one another are, which exactly matches the pitch of the adjusting elements, so that they can serve directly as a stop for the adjusting members.

The switching movements of the setting mechanism required for the invention are brought about by an alternating spring system; those in the adjustment racks set Wertc are by means of a square movement of the arithmetic unit frame from Arithmetic unit added. Such a design of the calculating machine enables it, do without the use of parking wagons and the like. In The drawings show the subject matter of the invention as an example.

Fig. I shows a view of the calculating machine from above, Fig. 2 the section CC seen in the direction of the arrows A, ß , Fig. 3 an external view of the calculating machine frame: ens, Fig. 4 a view of the Rätunischen arrangement of the key levers and the adjustment racks, Fig .5 a view of the spatial position of the key levers, the coupling bridge and the stepping circuit board, fig. 6 a view of the spatial position of the control parts during multiplication and division, fig. 7 a view of the decimal point switching device, fig. 8 a view of the machine frame with the toothed rack -Gathering bracket and the switch control, Fig. 9 a view of the switch control in the active position, Fig. Io- a view of the switch control parts in the "non-transmission" position, Fig the gear shift, Fig. ii ä, a position diagram: setting mechanism in the starting position, compensating roller lever and Follower slide in basic position,.

Fig. I i b a position diagram: setting mechanism in the extreme left setting position, Compensating roller lever in swiveled position, follower slide in working position, Fig. I i.c a position diagram: setting mechanism in the extreme left setting position, compensating roller lever and follower slide brought back to the basic position, Fig. 12 a position diagram: adjusting racks and counters, Fig. 12a a diagram of the position: setting mechanism (with control mechanism) in starting position, Fig.12b a position diagram: setting for addition, Fig. 12C a position diagram: setting for multiplication and division.

The overall arrangement of the components is shown in Fig. I.

A key table 2 with ten setting keys 2 arranged on top of my triangle is provided in the front part of the machine frame. Under the key table 2, eight key levers 4 and a coupling bridge 5 designed as a ninth key lever are pivotably mounted on axes 3Q, 3b (Fig. 4, 5) arranged transversely to the machine longitudinal axis CC. Furthermore, a zero key 6 is pivotably mounted on the key table at 6 ″ (Fig. 5). In the coupling bridge 5, slots 7 are recessed into which projections 8 of the key lever 4 engage. In front of the key table 2 is a locking bridge 9 (section 5). mounted so that it can be tilted by 9 ″, which on the one hand cooperates via a nose io with the zero key 6, on the other hand via a nose 63 with the transport rack ii of the setting mechanism 12 ″.

The setting mechanism 12 "(Fig. 2) with the setting racks 31 is located together with the control unit 12 on the common frame 3o (Fig. i). This is on a rod 13 fixed in the machine frame i transversely to the longitudinal axis of the machine C-C slidable and is pulled out of the by two springs 14 and 15 (Fig. I i) Rest position in .the effective, en positions and moves back again. Spring 14 is with a End attached to setting mechanism 12 "at 30Q and runs over one on the machine frame i attached roller 16 to the front edge of the arithmetic unit frame 17. The spring 15 is on the one hand also fixed at 3o "on the setting mechanism 12", on the other hand it is over , one on a compensating lever 18 rotatable roller i 9 to one in the machine frame i slidably mounted idler slide 2o out, on which it with its other end is attached. Another one attached to the machine frame on the idle slide 2o Tension spring 21 ensures that spring 15 does not become loose.

A release pawl 22 (Figs. 5 and 6) is mounted on the machine frame i in cooperation with the adjusting lever, 26 (Fig. I). Locking bridge 9 controls its stop lever 24. The release pawl 22 is actuated directly in every machine operation, except for multiplication and division, by the reciprocating wall 49 of the arithmetic unit frame 17 (FIGS. 1, 8 and i i). In addition, the arithmetic unit frame 17 takes the Mitlaufschieb.er 2o into its upper end position with each machine gear via a nose 25 (Fig. Ii), in which it sets the return spring 15 of the setting unit 12 "under tension. The adjusting lever 26 (Fig. I and 6) can act on the locking bridge 9 in such a way that the stepping movement of the setting mechanism 12 "is released upon multiplication and division. A second adjusting lever 27 (Figs. I and 6) arranged on the key table can block the release pawl 22 in the event of multiplication and division. A third adjusting lever 28 attached to the key table 2 (Figs. I and 7) allows, via a transport pawl 29 acting on the setting mechanism 12 ", the step-by-step decimal switching of the setting mechanism 12" for multiplication and division.

In the mask frame i (Fig. I and 12) is on a pole, across C-C 13 sliding, the carriage 3o is arranged, which the known adjusting racks 3 i as drive elements for the result unit 32 and the control unit 12 contains. A rack system 33 is rigidly connected to the slide 3o. to carry out of subtraction and division calculations. Another one that can be moved laterally Carriage 34 (Fig. T and 12) carries a second Zabnstangensystem 35 with a single tooth 36 and is also required to perform multiplication and division.

Slides over the racks 31 (section 2). in the longitudinal direction of the machine C-C the Redhenwerkrahmen 17 (Fig. I i), of the two counter frames 32b and 32. The arithmetic unit frame 17 is in the course of a machine gear by means of a handle 37 (Fig. i and 3) forwards and backwards by a full stroke moves, with the drive wheels 38 (Fig. 2) of the counter 1, verke 32 and 32 "when running forward Comb (first half machine gear) with the racks 31 before the backward sound however, can be disengaged by a special control device.

The hand bracket37 has the shape of a U. The bracket is pivotably attached to the machine frame i via the two legs with shoulder screws 37Q (Fig. I and 3). The legs are extended beyond their fulcrum and are at 37, on both sides with links 37b in connection, which in turn attack on booms 50, 50, (Fig. 8) of the arithmetic unit frame 17 and move it in a straight line (guide slots 51).

The hand bracket 37 swings about its pivot points 37Q from the horizontal Rest position out by about 130 ° upwards, which is the uppermost position of the implementation corresponds to half a machine gear of the slope. At the end of a full machine aisle, that is, the frame decline, the hand bracket137 is back in its horizontal starting position.

The control device for the coupling of the racks 31 with the gears 38 consists of a U-shaped bracket 39 (Fig. 3, 8, 9 and 10), which is rotatably mounted in the lower part of the machine frame i at 39 and is supported by a spring 40 ( Fig. 8) experiences a torque in the direction of the arrow. The legs of the bracket 39 (Fig. 9, 10) are designed as carriers for two trapezoidal turnout pieces 41 hinged to them via 46 ". These turnout pieces 41 fit into corresponding recesses 42 in the machine frame i. Spiral springs 43 are arranged on the pivot pins 46", which on the one hand can come to rest on pins 44 of the arithmetic unit frame 17. At their other end they are supported on the leg of the bracket 39. On the lower edge of the arithmetic unit frame 17, an extension 45 is formed on both sides, which carries a guide pin 46. Leaf springs 47 (Figs. 8, 9) are attached to the extensions 45 of the arithmetic unit frame 17, the bent protruding ends of which can come into engagement with a locking toothing 48 on the trapezoidal switch pieces 41.

To carry out the four types of calculations, the two are different from each other separate counters 32 and 32Q in the counter frames 32b and 32, (Fig. 1, 12) in the arithmetic unit frame 17 movable in the machine frame i is provided.

The counter frame 32b contains the result unit 32 and the balancing unit. The counting number 32 carries the revolution counter (machine gear counter) 32Q. The two counter frames 32b, 32, (Fig. I i) can be controlled by a cam-shaped gear dial 48 are shifted sideways against each other and with each other. You will, through one Tension spring, not shown in the drawings, is elastically connected to one another. The racks 31 (Fig. 2) are designed in such a way that they are in your keyboard facing part carry the toothing for the control unit 12, in its middle Part of a gearing for complementary income (supplementary numbers) and in their The part lying under the counters, half of a decimal place to the side is arranged offset, the normal additive toothing. depending on the set Type of calculation (lateral position) come the drive wheels 38 (Fig. 2) of the result work in engagement with the complementary or with the normal toothing of the racks 31 and the rack systems 33 and 35 (Fig. 12).

Carry the two legs 5o, 5o "of the arithmetic unit frame 17 (Fig. 8) on each of its lower edge a nose 52.52 ″, which on the bends 53 of the arms of the rack and pinion bracket 54 can act. The rack and pinion assembly bracket 54 can be moved lengthways with the bolt 54Q in slots 55 of the machine frame i, while its two arms 54, in specially shaped carriage 56 by means of two Pins 57 are guided in such a way that when the frame 17 moves forward (movement in the direction of the arrow) pressed in by the lugs 52 in the vertical part of the slots 56 and are run over, but when reversing by the steep flanks of the noses 52 are detected and taken into the horizontal part of the slots 56. At the The course of the bracket 54 all adjusted racks 31 are .erfätze and from him returned to their original position. One each on the inside of the machine frame i arranged tension spring 58 seeks the rack collecting bracket 54 in its starting position to pull, while the springs 59, the arms 54, of the collecting bracket 54 within the Press the slots 56 up over the bolts 57.

The mode of operation of the machine is as follows: with an addition the setting keys 2 ″ of the keypad are pressed, for example the 4Q key in Fig. 4. At the same time, the coupling bridge 5 of the button 9 goes down in working position, whereby a nose 5Q and a pawl 6o the importance 4 "corresponding rack 31 is released so that it is pulled by the spring 61 is moved to the stop on the lower shoulder of the button lever 4 ".

Immediately thereafter, the bend 5b of the coupling bridge 5 becomes effective by pressing the zero key lever 6 (Fig.5). This acts on the one hand on the tab io of the locking bridge 9, on the other hand it engages with an extended arm 62 between each two teeth of the transport rack i i. If the locking bridge 9 is swiveled out by means of the tab io, the transport rack ii can perform a switching jump by half a decimal place up to the stop on the arm 62. The transport rack ii executes a switching jump by another half decimal place when the pressed key 4Q and thus also the zero key 6 return to their rest position. Here, take the weir 9 t namely their starting position "a cedar so that -her pawl 63 lie between two teeth of the transport rack i i and can hold them. The springs 14, 15 (Fig. Ii) are used to carry out the switching steps of the setting mechanism 12 ". During a switching step of the setting mechanism iz" by one decimal place, the spring 14 pulls the setting mechanism 12 "from its rest position right to the left, with the return spring 15 as well as The return spring 15 is in a slightly pretensioned state due to the action of the counter spring 21 attached to the run slide 2o, so that it cannot slide off the roller 19 of the compensating lever 18. Another tension of the Return spring 15 beyond the aforementioned bias is avoided by pivoting out the equalizing lever 18, which is set to constant tension.

To transfer the value entered into the setting unit 12 "into the result unit 32, the handle 37 is lifted from its rest position (Fig. 1, 3) into the end position, whereby the arithmetic unit frame 17 - corresponding to half a machine aisle - is advanced in the direction of the key table z Here, by rolling the drive wheels 38 (Fig. 2) on the setting racks 3 i, the entered amount is transferred from the setting unit i 2Q to the result unit 32. To make this possible, the guide pins 46 of the projections 45 on both sides slide (Fig. 8, io ) of the frame 17 below the trapezoidal switch pieces 41 (Fig. 9) in the recesses 42 of the machine frame i, thus guide the frame 17 in the lower path 1 8, (Fig. Ii) of the compensation lever 18, this lever is pivoted clockwise, whereby the return spring 15 receives additional tension The return spring 15 moves in that the end face 49 of the arithmetic unit frame 17 also abuts against the bend 25 of the follower slide 2o and moves the slide 20 in front of it. On the other hand, the spring 14 experiences complete relaxation due to the forward movement of the arithmetic unit frame 17. Shortly before the end of the first half machine aisle, the computing frame end face 49 (Fig. 6) strikes an extension 64 of the release pawl 22, which over its shoulder 23 and over the arm 24 the locking bridge 9 and thus locking tooth 63 in direction C (Fig. 5) pivoted, whereby the transport rack ii and thus the setting mechanism 1.2 ″ is released so that it can return to its rest position under the action of the return spring 15.

During the first half machine cycle, the leaf springs engage on both sides 47 (Fig. 9) into the locking teeth 48 of the trapezoidal switch pieces 41. You only come out of engagement with this toothing when the first half Machine gear is completely finished. This means that the Work cycle forced.

The second half machine gear - the return of the arithmetic frame 17 - takes place while the handle @ el37 is in its starting position (Fig. I and 3) is pushed back. As a result of the action of the spring 4o (Fig. 8), the bracket 39 swiveled in the direction of the arrow about the axis 39Q, as a result of which the Weicheal pieces attached to it 41 go down and au. Return of the guide pins 46 of the arithmetic unit frame 17 on its upper edge 42Q (Fig. Io). When moving on. this upper one The drive wheels 38 (Fig.2) of the arithmetic units go on a path. about the Adjusting racks 31 away; however, this is in a manner not shown Ten circuit of the arithmetic units carried out. At the same time, the spring 14 (Fig. i i) cocked for new settings of the 12 "setting.

At the end of each machine cycle, all setting racks must be 31 are back in the starting position. This resetting is effected by the collective hanger 54 (Fig. 8). Glide at the first half machine gear. the two legs 5o of the Arithmetic unit frame 17 with their lugs 52 over the bends 53 of the collecting bracket 54, this due to the bending of the guide slots 56 at the ends below Overcoming the return spring 59 is pivoted ineffectively downward by 54Q. When the legs 5o return, however, the working surfaces of the lugs 52 hit the active surfaces of the cranks 53 and move the collecting bracket 154 over its reset area, in which he has all adjusted racks in the original ready position returns. At the end of the second half machine aisle, the collecting bracket comes loose 54 as a result of the downward loading guide slot 56 from the lugs 52 of the legs 5o and returns to its rest position after notching under the tension of the springs 58.

When the adding machine can be used for subtractive tasks should, the dial 48 (Fig. i, i i) is set to subtraction. This will the result work frame 32b shifted laterally by half a decimal place, so that the drive wheels 38 (Fig. 2) of the result mechanism 32 with the complementary ones Toothings of the racks 31 come into engagement. There is one in the drawings Switching element, not shown, is provided on the machine, which ensures that that here in a known manner in the last place in order to achieve the correct one One unit is added to the result.

Multiplications are carried out by repeated addition. For this purpose, the lever 26 (Fig. 1, 6) is pivoted in the opposite direction of the arrow, whereby the release pawl 22 is also pressed in this direction, so that the lug z3 and lever 24 disengage and switching steps of the setting mechanism 12 "are prevented Bend 26Q of the lever 26 (Fig. 6) the end 54b of the collecting bracket 54 (Fig. 8) downwards, so that its bends 53 cannot be taken along by the noses 52 of the legs 5o when running backwards and the collecting bracket 54 remains in its rest position. On the rack system 35 (Fig. 12), which follows the lateral shift of the rack systems 3 i and 33, which is necessary for multiplication calculations, for which it is coupled by the lever 26 in a manner not shown (Fig. 12 c,) The single tooth 36 is arranged, which advances the revolution counter 32 ″ one unit for each full machine cycle carried out (Figs. i, 3, i2). The decimal lateral shift of the setting mechanism 12 ", which becomes necessary with multi-digit multipliers, is achieved by actuating the lever 28 (Fig. 7). When it is pivoted in the direction of the arrow, this Hebe128 slides over an inclined guide edge 29Q and thereby brings the transport pawl 29 into engagement with the Transport rack i i. If the lever 28 is pivoted further, the transport pawl 29 advances the transport rack ii by one division = decimal place. An additional switching pawl 65, tiltably mounted in the transport pawl 29, presses on a bend 66 of the locking bridge 9 and pivots it in this way that its tab 63 comes out of engagement with the teeth of the transport rod ii, whereby this is released for the switching step to be carried out.

In the practical example 3456 X 23 = 79 488 becomes the multiplicand 3456 set in keypad 2 and read off in control unit 12. After that, the Lever 27 is pivoted in the direction of the arrow (Fig. 6), whereby the setting mechanism i-- "with the rack system 3i assigned to it (Fig. i2 b) jumps to the extreme left position. According to the multiplier 23, there are now two machine aisles one after the other carried out. The intermediate product 6912 and then appear in the result set 32 in the revolution counter 3-- "(Fig. i) as a result of the action of the single tooth 36 of the Value 2. By swiveling the lever 28 to the left as shown in Fig. 7, the setting mechanism 12 "shifted one digit to the right. This is followed by the numerical value of the multiplier in the ones place accordingly three machine aisles, after which by wandering the Single tooth 36 to the right in the second position of the revolution counter 32 "(Fig. i) the value 3 appears. The value 23 of the The multiplier can be read as a check. As a result of the last three machine aisles the value of the end product appears in the result work 32, namely the number 79488-.

The solution of division tasks takes place additively via the complementary system. At the beginning of a division, the setting mechanism i 2Q is in its starting position as shown in Figs. Iia and i 2 a. The dividend is brought into the setting mechanism 12 "and appears in the Konti olliverk 12. Then the lever --7 (Fig. 6) is swiveled in the direction of the arrow, whereby the setting mechanism 12" is in its extreme left position (Fig. Iib and i, - , b) jumps. When a machine run is carried out, the value of the dividend is transferred from the setting mechanism 12 "to the result mechanism 32. By operating the lever 26 (Fig.6) in the direction of the arrow, the rack frame 3 4 (see Fig. 12 to 12, C) is not coupled to the rack frame 3o in the manner shown. The divisor is now keyed into the setting mechanism 12 ″, after which the lever 27 (Fig. 6) is pivoted in the direction of the arrow. The entire setting mechanism (parts 12, 30 and 34) then jumps to the extreme left position (Fig. I - c). By adjusting the pace dial 48 (Fig. I, ii) to division, the result set 32 is brought to the complementary position according to Fig. Ii (dashed contour). The usual machine operations are carried out to dissolve the dividends in the results. The quotient appears in the revolution counter 32Q.

Claims (15)

PATENT CLAIMS: i. Four-species calculating machine with numeric keypad, characterized in that the setting racks (3 i) pick up the keyed-in values directly on the key levers (4) lying transversely to them, the switching movements required for this are effected by a spring system (14, 15, 21) and the values set with the setting racks (3i) are recorded by the arithmetic unit (32, 322 ) by a square movement of the arithmetic unit frame (i7). 2. Calculating machine according to claim i, characterized in that the key lever (4) the nine key is designed as a coupling bridge (5), which when actuated each: the other eight button levers (4) are moved along with it. 3. Calculating machine according to claim i and 2, dadurc'li characterized in that the key levers, the keys o to 9 in the key table (2) are alternately mounted on the axes (3Q, 3b) such that: the directly on the key levers ( 4) arranged key buttons form an inverted triangular keypad. 4. Calculating machine according to claim i and 2, characterized in that the coupling bridge (5; nine key) with slots (7) is provided, in which the stop lugs (8) of the other key levers (4) engage. 5. Calculating machine according to claim i and 2, characterized in that the zero key (6) is designed with leg (62) such that it connects to the stepping mechanism (i i) of the setting mechanism (12 ") cooperates directly. 6. Adding machine after Claims i to 5, characterized in that the alternately acting springs (14, 15) for lateral shifting of the setting mechanism (12 ") by the stepping mechanism (11, 9) can be controlled. 7. Calculating machine according to claim i to 6, characterized in that that one end of the main spring (i4) on the setting frame (30Q) and the other End is attached to the movable counter frame (i7) and that the counter spring (i5) between the setting frame (3o ") and the one slidingly mounted in the arithmetic unit frame (i7) Tracking liver (2o) acts, which during the machine operation. A continuous relaxation the return spring (i5) causes. B. Calculating machine according to claims i to 7, characterized in that a pivotably mounted, controllable compensating roller lever (i8) is provided on the machine frame (i) which can move in such a way that the counter spring (1 5) is running when the setting mechanism (12 ") is running. Stay relaxed in an effective position. 9. Calculating machine according to claim i to 8, characterized in that the compensating roller lever (18) is controlled when a machine operation is carried out by the arithmetic unit frame (17) in such a way that it tensions the counter spring (1 5) (frame edge 17 ", Turn 18 "). i o. Calculating machine according to Claims i to 9, characterized in that when carrying out a machine operation of the idler slide (2o) is controlled in this way by the arithmetic unit frame (i7) (frame edge 17, nose 25) that it is the return spring to return the control unit (12) to the rest position (15) is additionally tensioned and at the same time the main spring (14) is relieved. i i. Calculating machine according to claims i to io, characterized in that, in order to bring the counter (32) into engagement with the setting means (P), a pair of switches controlled by the calculator frame (17), consisting of brackets (39), switch pieces (41), springs (43), is provided that in the first half machine gear the recess (42) for the pin (46) of the arithmetic unit frame (i7) releases and thus enables the engagement between the drive members (V) and the counter (32), but with the second half machine gear intervention prevented. 12 .. calculating machine according to claim i to i i, characterized in that that a full stroke lock (47, 48) between the movable switch body (4i) and to the. Arithmetic unit frame (i7) is arranged. 13. Calculating machine according to claim i to 12, characterized in that the adjusting racks (31) for performing subtractive tasks of the calculating machine are bent at a suitable point by half a decimal division, so that by lateral displacement of the result unit (32) and the revolution counter (32Q ) the engagement of the counters in this setting rack section can take place by half a decimal division. 14. Four species calculating machine according to claims i to 13, characterized by devices (lever 26, parts 22, 23 ,. 24, lever 27) for optional interruption (with multiplication or division) the functional connection between the stepping mechanism (i i) - the setting mechanism (i2) and the coupling bridge (5). 15. Four species calculating machine according to claim 14, characterized by additional means (lever 28, pawl 29) for stepwise Adjustment of the step switch mechanism (i i).